A method of pre-applying a bolster assembly to an interior trim part includes the steps of applying a base skin layer to a groove of a first nest, applying a bolster skin layer to a second nest, positioning the first nest in an open position, and inserting a leading edge of a bolster skin layer in the groove of the first nest when the first nest is in the open position until the bolster skin layer engages the base skin layer. The bolster assembly can be attached to the interior trim part by a Foam-In-Place (FIP) or Low-Pressure Molding (LPM) operation. The interior trim part may comprise a dashboard garnish, an instrument panel (IP), a door panel, and the like. A boss locating portion can be integrally formed within the base skin layer and is used for locating the bolster assembly on the interior trim piece during the manufacturing process. Because the bolster assembly is pre-applied to the interior trim part prior to the FIP or LPM operation, the bolster assembly can be positioned at the bottom-most portion of the groove to provide a consistent fit and finish, while reducing scrap material and cost of the interior trim part.
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1. A method of manufacturing a door panel assembly, comprising the steps of:
orientating a first flexible nest to be in a closed position;
depositing a base skin layer upon the first nest;
defining the base skin layer to include a groove when the first nest is orientated in the closed position;
increasing accessibility of the groove by flexibly manipulating the first nest from the closed position to an open position to thereby elongate the groove;
depositing a bolster skin layer upon the base skin layer at least proximate the groove when the groove is elongated and in the first position; and
following deposition of the bolster skin layer to the base skin layer, orientating the first nest from the open position to the closed position.
2. The method according to
inserting a leading edge of the bolster skin layer adjacent a bottom-most portion of the groove of the base skin layer when the first nest is orientated in the opened position.
3. The method according to
preparing the bolster skin layer upon a second nest by disposing the bolster skin layer upon the second nest; and, wherein, prior to the orientating the first nest from the open position to the closed position step, further comprising the step of
detaching the bolster skin layer from the second nest.
4. The method according to
removing the base skin layer including the deposited bolster skin layer from the first nest.
5. The method according to
providing a substrate layer;
disposing the base skin layer proximate the substrate layer; and
attaching the base skin layer to the substrate layer.
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The present invention relates to a bolster assembly for an interior trim part of a vehicle, and in particular to a bolster assembly formed by applying the bolster skin to an interior trim part, such as interior door panel, prior to performing a Foam-In-Place (FIP) or Low-Pressure Molding (LPM) operation.
Conventional bolster assemblies normally employ a plurality of layers that are applied at once on a bolster region of interior trim parts of a vehicle, such as an interior door panel, during interior trim part manufacturing. When the bolster assembly is applied to the bolster region of the door panel, the bolster assembly is simultaneously cut as it is glued and pushed into a peripheral groove defining the bolster region. The cutting of the bolster assembly during the manufacturing process increases the amount of scrap material. In addition, if the above process not properly performed, the resulting bolster assembly is defective and the entire interior trim part incorporating the bolster assembly is scraped.
Conventional bolster assemblies may also come in the form of a hand-made “add-on” bolster assembly. The add-on bolster assembly normally includes a heavy substrate layer injection molded to a piece of die-cut foam. A cover skin is wrapped around the periphery of the heavy substrate and die-cut foam, which is then stapled together on the rear side of the bolster assembly. The add-on bolster assembly is then manually attached to an interior trim part by heatstaking, screwing, or by other fastening means, such as palnuts. The weight restrictions and tolerances of the interior trim part results in add-on bolster design restrictions because of the need for the heavy substrate layer. The add-on bolster assembly also is manufactured with a high cost to the manufacturer due to the intensive hand labor. Costs are also increased by the waste of the high amount of scrap material of the die cut foam, as well as the need for extra cover skin material for the stapling operation.
Current profile designs for interior trim parts, such as interior door panels, involve increasing variations in the topography of the door panel because of the varying slopes, surfaces, and grooves of the door panel design. One problem associated with the increasing variation in the topography is that the profile region where the bolster is attached to the groove prevents the bolster assembly from being fully positioned within the groove during the manufacture of the door panel. Another problem associated with conventional manufacturing methods is that relatively large amounts of scrap material are produced, thereby increasing the cost of the interior trim part. Yet another problem associated with conventional manufacturing methods is that consistently manufactured interior trim part is not ensured and the entire trim part is scraped in the event of a malfunction of the manufacturing process.
The inventor of the present invention has recognized these and other problems associated with conventional manufacturing methods for interior trim parts, such as an interior door panel. To this end, the inventor has developed a method for manufacturing an interior trim part, such as a door panel with an integrated bolster assembly that can be formed in a controlled and consistent fashion while reducing the amount of scrap material, weight, and costs during the manufacturing of the interior trim part.
Specifically, the bolster assembly of the invention comprises a flexible base layer, a bolster skin layer, and at least one boss-locating portion. The base layer has a surface defined by the slopes, surfaces, and grooves of the bolster region. The bolster skin conforms to the slopes, surfaces, and grooves of the flexible base layer and is adhesively affixed thereto. The boss-locating portion is integrally formed within the base layer for locating the bolster assembly on the interior trim piece.
The method of pre-apply a bolster assembly to an interior trim part comprises the steps of:
applying a base skin layer to a groove of a first nest;
applying a bolster skin layer to a second nest;
positioning the first nest in an open position;
inserting a leading edge of a bolster skin layer in the groove of the first nest when the first nest is in the open position until the bolster skin layer engages the base skin layer.
After inserting the bolster skin layer in the groove, the bolster skin layer is detached from the second nest, the first nest is positioned in a closed position, and the base skin layer is removed from the first nest. A Foam-In-Place (FIP or Low-Pressure Molding (LPM) operation can be performed after the base skin layer is removed from the first nest.
The present invention will now be described, by way of example, with reference to the accompanying drawings, in which:
Typically, the bolster assembly 10 has a soft, plush-like feature that acts as decorative trim on the door panel assembly 12 that faces toward the passenger compartment area in a vehicle (not shown). Typically, the bolster assembly 10 has a thickness approximately equal to 1.5 mm. However, the thickness of the bolster assembly 10 may vary depending of the type of material used and the door panel assembly design. The bolster assembly 10 may be formed by any one or a combination of the following processes including injection-molding, material spraying, casting, male/female vacuum-forming, or the like. The door panel assembly 12 may also include a handle bezel portion 14, an armrest portion 16, and an additional armrest 18 that border the bolster assembly 10.
Preferably, the bolster assembly 10 comprises a flexible first layer, such as a base skin layer 26, and a flexible second layer, such as a bolster skin layer 20. The base skin layer 26 may comprise a sprayed urethane or any flexible or elastomeric material, such as Thermoplastic Olefin (TPO), or the like. The bolster skin layer 20 may comprise a decorative surface material such as a cloth, leather, or artificial leather. It will be appreciated that the invention is not limited to the type of material used for the bolster assembly 10, and that the invention can be practiced with any suitable flexible material.
Referring now to
One aspect of the invention is that the bolster assembly 10 is pre-applied in a nest or mold, which is generally similar to the profiles of the bolster region on the door panel assembly 12 where the bolster assembly 10 is located. The term “pre-applied” is generally directed to any operation that allows the remote formation or pre-shaping of the bolster assembly 10 before the complete manufacturing of the door panel 12. In general, the nest or mold generally comprises the first lower nest 100 that is similar to the profiles of the bolster region and a second, upper nest 101 for applying the bolster skin layer 20 to the base skin layer 26 in the first, lower nest 100.
Referring to
The bolster skin layer 20 is applied on the second, upper nest 101. The bolster skin layer 20 can be applied before or after positioning the first, lower nest 100 in the open position. An adhesive material, such as a pressure-sensitive adhesive (PSA), PSA film, hot-melt, glue, or the like, may be applied to a surface 34 of the bolster skin layer 20 that will engage the base skin layer 26. It will be appreciated that the invention is not limited to the type of adhesive material and that the invention may be practiced with any type of suitable adhesive.
There are many alternative embodiments for the bolster skin layer 20. Referring now to
Referring now to
Referring now to
Referring back to
Next, the bolster skin layer 20 is moved toward the base skin layer 26 by moving the second, upper nest 101 toward the first, lower nest 100 until the surface 34 engages the base skin layer 26. Once the bolster skin layer 20 is inserted into the groove 24, the pre-applying process is essentially completed. An adhesive material (not shown) may be applied to the surface 34 of the bolster skin layer 20. When the surface 34 engages the base skin layer 26, a continuous, light, and strong bond is provided that conforms to the topography of the bolster region in the door panel assembly 12. Once the bolster skin layer 20 is inserted into the groove 24 and engages the base skin layer 26, the second, upper nest 101 is moved away from the first, lower nest 100, which causes the detachment of the bolster skin layer 20 from the second, upper nest 101.
Referring to
Referring now to
The manufacturing process is completed by placing the bolster assembly 10 in the bolster region of the door panel 12 and performing a Foam-In-Place (FIP) operation. After a short time during the FIP operation, the foam material 40 begins to expand the groove 24. One advantage of pre-applying the bolster assembly 10 prior to the FIP operation is that the FIP operation causes extra pressure to be exerted on the bolster skin layer 20 of the bolster assembly 10. As a result, the groove 24 is further closed to more positively secure the bolster assembly 10 to the bottom-most portion 38 of the groove 24, as compared to conventional methods in which the bolster assembly is attempted to be inserted within the groove after a FIP or similar operation.
As described above, the present invention provides the ability to design and form a bolster assembly 10 in a controlled and consistent fashion, while reducing the amount of scrap material and parts during the manufacturing of an interior trim piece, such as the door panel 12. By pre-applying the bolster assembly 10 when the first nest 100 is in the open position, a more robust design of the bolster assembly 10 to account for profile designs of the bolster region of the door panel 12 can be achieved, as compared to conventional methods. In addition, if by chance the manufacturing of the bolster assembly 10 malfunctions during the pre-applying process, only the bolster assembly 10 is scraped, as compared to scraping the entire door panel assembly 12 as in conventional methods. Thus, the door panel assembly 12 can be subsequently formed by using a different, non-rejected bolster assembly, thereby resulting in a substantial cost savings to the manufacturer. Further, the bolster skin layer 20 can be positioned at the bottom-most portion 38 of the groove 24 when the bolster skin layer 20 is pre-applied to the base skin layer 26. As a result, a better fit and finish of the bolster skin layer 20 for the profiles of the bolster region is achieved using the pre-apply process of the invention.
It should be understood that the aforementioned and other various alternatives to the embodiments of the invention described herein may be employed in practicing the invention. It is intended that the following claims define the scope of the invention and that the method and apparatus within the scope of these claims and their equivalents be covered thereby.
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Apr 23 2002 | GRABOWSKI, DAVID N | Intier Automotive Inc | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 016693 | /0639 | |
Jan 14 2003 | MAGNA INTERNATIONAL INC. | (assignment on the face of the patent) | / | |||
Jun 30 2008 | Intier Automotive Inc | Magna Seating Inc | CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 036474 | /0448 | |
Aug 31 2015 | Magna Seating Inc | GRUPO ANTOLÍN-IRAUSA, S A | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037929 | /0446 |
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